From: Andre Przywara Date: Mon, 27 Dec 2021 15:07:36 +0000 (+0000) Subject: sunxi: add board documentation X-Git-Tag: v2022.07~227^2~9^2~17 X-Git-Url: http://review.tizen.org/git/?a=commitdiff_plain;h=eaaa5fbbe421c75dbf2319615f95e0484b330b87;p=platform%2Fkernel%2Fu-boot.git sunxi: add board documentation Add some long overdue instructions for building and installing U-Boot on Allwinner SoC based boards. This describes the building process, including TF-A and crust, plus installation to SD card, eMMC and SPI flash, both from Linux and U-Boot itself. Also describe FEL booting. Signed-off-by: Andre Przywara Reviewed-by: Heinrich Schuchardt --- diff --git a/doc/board/allwinner/index.rst b/doc/board/allwinner/index.rst new file mode 100644 index 0000000..7352ccd --- /dev/null +++ b/doc/board/allwinner/index.rst @@ -0,0 +1,9 @@ +.. SPDX-License-Identifier: GPL-2.0+ + +Allwinner (sunxi) boards +======================== + +.. toctree:: + :maxdepth: 2 + + sunxi diff --git a/doc/board/allwinner/sunxi.rst b/doc/board/allwinner/sunxi.rst new file mode 100644 index 0000000..797222d --- /dev/null +++ b/doc/board/allwinner/sunxi.rst @@ -0,0 +1,319 @@ +.. SPDX-License-Identifier: GPL-2.0+ +.. Copyright (C) 2021 Arm Ltd. + +Allwinner SoC based boards +========================== +For boards using an Allwinner ARM based SoC ("sunxi"), the U-Boot build +system generates a single integrated image file: ``u-boot-sunxi-with-spl.bin.`` +This file can be used on SD cards, eMMC devices, SPI flash and for the +USB-OTG based boot method (FEL). To build this file: + +* For 64-bit SoCs, build Trusted Firmware (TF-A, formerly known as ATF) first, + you will need its ``bl31.bin``. See below for more details. +* Optionally on 64-bit SoCs, build the `crust`_ management processor firmware, + you will need its ``scp.bin``. See below for more details. +* Build U-Boot:: + + $ export BL31=/path/to/bl31.bin # required for 64-bit SoCs + $ export SCP=/path/to/scp.bin # optional for some 64-bit SoCs + $ make _defconfig + $ make +* Transfer to an (micro)SD card (see below for more details):: + + $ sudo dd if=u-boot-sunxi-with-spl.bin of=/dev/sdX bs=8k seek=1 +* Boot and enjoy! + +.. note:: + The traditional SD card location the Allwinner BootROM loads from is 8KB + (sector 16). This works fine with the old MBR partitioning scheme, which most + SD cards come formatted with. However this is in the middle of a potential + GPT partition table, which will become invalid in this step. Newer SoCs + (starting with the H3 from late 2014) also support booting from 128KB, which + is beyond even a GPT and thus a safer location. + +For more details, and alternative boot locations or installations, see below. + +Building Arm Trusted Firmware (TF-A) +------------------------------------ +Boards using a 64-bit Soc (A64, H5, H6, H616, R329) require the BL31 stage of +the `Arm Trusted Firmware-A`_ firmware. This provides the reference +implementation of secure software for Armv8-A, offering PSCI and SMCCC +services. Allwinner support is fully mainlined. To build bl31.bin:: + + $ git clone https://git.trustedfirmware.org/TF-A/trusted-firmware-a.git + $ cd trusted-firmware-a + $ make CROSS_COMPILE=aarch64-linux-gnu- PLAT=sun50i_a64 DEBUG=1 + $ export BL31=$(pwd)/build/sun50i_a64/debug/bl31.bin + +The target platform (``PLAT=``) for A64 and H5 SoCs is sun50i_a64, for the H6 +sun50i_h6, for the H616 sun50i_h616, and for the R329 sun50i_r329. Use:: + + $ find plat/allwinner -name platform.mk + +to find all supported platforms. TF-A's `docs/plat/allwinner.rst`_ contains +more information and lists some build options. + +Building the Crust management processor firmware +------------------------------------------------ +For some SoCs and boards, the integrated OpenRISC management controller can +be used to provide power management services, foremost suspend to RAM. +There is a community supported Open Source implementation called `crust`_, +which runs on most SoCs featuring a management controller. + +This firmware part is optional, setting the SCP environment variable to +/dev/null avoids the warning message when building without one. + +To build crust's scp.bin, you need an OpenRISC (or1k) cross compiler, then:: + + $ git clone https://github.com/crust-firmware/crust.git + $ cd crust + $ make _defconfig + $ make CROSS_COMPILE=or1k-none-elf- scp + $ export SCP=$(pwd)/build/scp/scp.bin + +Find a list of supported board configurations in the `configs/`_ directory. +The `crust README`_ has more information about the building process, including +information about where to get OpenRISC cross compilers. + +Building the U-Boot image +------------------------- +Find the U-Boot defconfig file for your board first. Those files live in +the ``configs/`` directory; you can grep for the stub name of the devicetree +file, if you know that, or for the SoC name to find the right version:: + + $ git grep -l MACH_SUN8I_H3 configs + $ git grep -l sun50i-h6-orangepi-3 configs + +The `linux-sunxi`_ wiki also lists the name of the defconfig file in the +respective board page. Then use this defconfig file to create the .config +file, and build the image:: + + $ make _defconfig + $ make + +For 64-bit boards, this requires either the BL31 environment variable to be +set (as shown above in the TF-A build example), or it to be supplied on the +build command line:: + + $ make BL31=/src/tf-a.git/build/sun50i_h616/debug/bl31.bin + +The same applies to the (optional) SCP firmware. + +The file containing everything you need is called ``u-boot-sunxi-with-spl.bin``, +you will find it in the root folder of your U-Boot (build) tree. Except for +raw NAND flash devices this very same file can be used for any boot source. +It will contain the SPL image, fitted with the proper signature recognised by +the BROM, and the required checksum. Also it will contain at least U-Boot +proper, either wrapped in the legacy U-Boot image format, or in a FIT image. +The board's devicetree is also included, either appended to the U-Boot proper +image, or contained in the FIT image. If required by the SoC, this FIT file will +also include the other firmware images. + +Installing U-Boot +----------------- + +Installing on a (micro-) SD card +^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ +All Allwinner SoCs will try to find a boot image at sector 16 (8KB) of +an SD card, connected to the first MMC controller. To transfer the generated +image to an SD card, from any Linux device (including the board itself) with +an (micro-)SD card reader, type:: + + $ sudo dd if=u-boot-sunxi-with-spl.bin of=/dev/sdX bs=1k seek=8 + +``/dev/sdx`` needs to be replaced with the block device name of the SD card +reader. On some machines this could be ``/dev/mmcblkX``. +Newer SoCs (starting from the H3 from 2014, and including all ARM64 SoCs), +also look at sector 256 (128KB) for the signature (after having checked the +8KB location). Installing the firmware there has the advantage of not +overlapping with a GPT partition table. Simply replace the "``seek=8``" above +with "``seek=128``". + +You can also use an existing (mainline) U-Boot to write to the SD card. Load +the generated U-Boot image somewhere into DRAM (via ``ext4load``, ``fatload``, +or ``tftpboot``), then write to MMC device 0:: + + => fatload mmc 0:1 $kernel_addr_r u-boot-sunxi-with-spl.bin + => mmc dev 0 + => mmc write $kernel_addr_r 0x10 0x7f0 + +To use the alternative boot location on newer SoCs:: + + => mmc write $kernel_addr_r 0x100 0x700 + +Installing on eMMC (on-board flash memory) +^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ +Some boards have a soldered eMMC chip, some other boards have an eMMC socket +to receive an optional eMMC module. U-Boot can be installed to those chips, +to boot without an SD card inserted. The Boot-ROM can boot either from the +regular user data partition, or from one of the separate eMMC boot partitions. +U-Boot can be installed either from a running Linux instance on the device, +from a running (mainline) U-Boot, or via an adapter for the (removable) +eMMC module. + +Installing on an eMMC user data partition from Linux +```````````````````````````````````````````````````` +If you have a running Linux instance on the device, and have somehow copied +over the image file to that device, you can write the image directly into the +eMMC device from there. +Find the name of the block device file first, it is one of the +``/dev/mmcblk`` devices. eMMC devices typically also list a +``/dev/mmcblkboot0`` partition (see below), this helps you to tell it apart +from the SD card device. +To install onto the user data partition:: + + $ sudo dd if=u-boot-sunxi-with-spl.bin of=/dev/dev/mmcblkX bs=1k seek=8 + +Similar to SD cards, the BROM in newer SoCs (H3 and above) also checks +sector 256 of an eMMC, so you can use "``seek=128``" as well. Having a GPT +on an eMMC device is much more likely than on an SD card, so you should +probably stick to the alternative location, or use one of the boot partitions. + +Installing on an eMMC boot partition from Linux +``````````````````````````````````````````````` +In the following examples, ``/dev/mmcblkX`` needs to be replaced with the block +device name of the eMMC device. The eMMC device can be recognised by also +listing the boot partitions (``/dev/mmcblkXboot0``) in ``/proc/partitions``. + +To allow booting from one of the eMMC boot partitions, this one needs to be +enabled first. This only needs to be done once, as this setting is +persistent, even though the boot partition can be disabled or changed again +any time later:: + + # apt-get install mmc-utils + # mmc bootbus set single_hs x1 x4 /dev/mmcblkX + # mmc bootpart enable 1 1 /dev/mmcblkX + +The first "1" in the last command points to the boot partition number to be +used, typically devices offer two boot partitions. + +By default Linux disables write access to the boot partitions, to prevent +accidental overwrites. You need to disable the write protection (until the +next reboot), then can write the U-Boot image to the *first* sector of the +selected boot partition:: + + # echo 0 > /sys/block/mmcblkXboot0/force_ro + # dd if=u-boot-sunxi-with-spl.bin of=/dev/mmcblkXboot0 bs=1k + +Installing on an eMMC user data partition from U-Boot +````````````````````````````````````````````````````` +You can also write the generated image file to an SD card, boot the device +from there, and burn the very same image to the eMMC device from U-Boot. +The following commands copy the image from the SD card to the eMMC device:: + + => mmc dev 0 + => mmc read $kernel_addr_r 0x10 0x7f0 + => mmc dev 1 + => mmc write $kernel_addr_r 0x10 0x7f0 + +You can also copy an image from the 8K offset of an SD card to the 128K +offset of the eMMC (or any combination), just change the "``0x10 0x7f0``" above +to "``0x100 0x700``", respectively. Of course the image file can be loaded via +any other loading method, including ``fatload``, ``ext4load``, ``tftpboot``. + +Installing on an eMMC boot partition from U-Boot +```````````````````````````````````````````````` +The selected eMMC boot partition needs to be initially enabled first (same +as in Linux above), you can do this from U-Boot with:: + + => mmc dev 1 + => mmc bootbus 1 1 0 0 + => mmc partconf 1 1 1 1 + +The first "1" in both commands denotes the MMC device number. The second "1" +in the partconf command sets the required ``BOOT_ACK`` option, the last two "1"s +selects the active boot partition and the target for the next data access, +respectively. So for the next "``mmc write``" command to address one of the boot +partitions, the last number must either be "1" or "2", "0" would switch (back) +to the normal user data partition. + +Then load the ``u-boot-sunxi-with-spl.bin`` image file into DRAM, either by +reading directly from an SD card or eMMC user data partition, or from a +file system or TFTP (see above), and transfer it to the boot partition:: + + => tftpboot $kernel_addr_r u-boot-sunxi-with-spl.bin + => mmc write $kernel_addr_r 0 0x7f0 + +After that the device should boot from the selected boot partition, which takes +precedence over booting from the user data partition. + +Installing on SPI flash +^^^^^^^^^^^^^^^^^^^^^^^ +Some devices have a SPI NOR flash chip soldered on the board. If it is +connected to the SPI0 pins on PortC, the BROM can also boot from there. +Typically the SPI flash has the lowest boot priority, so SD card and eMMC +devices will be considered first. + +Installing on SPI flash from Linux +`````````````````````````````````` +If the devicetree enables and describes the SPI flash device, you can access +the SPI flash content from Linux, using the `MTD utils`_:: + + # apt-get install mtd-utils + # mtdinfo + # mtd_debug erase /dev/mtdX 0 0xf0000 + # mtd_debug write /dev/mtdX 0 0xf0000 u-boot-sunxi-with-spl.bin + +``/dev/mtdX`` needs to be replaced with the respective device name, as listed +in the output of ``mtdinfo``. + +Installing on SPI flash from U-Boot +``````````````````````````````````` +If SPI flash driver and command support (``CONFIG_CMD_SF``) is enabled in the +U-Boot configuration, the image file can be installed via U-Boot as well:: + + => tftpboot $kernel_addr_r u-boot-sunxi-with-spl.bin + => sf probe + => sf erase 0 +0xf0000 + => sf write $kernel_addr_r 0 $filesize + +Installing on SPI flash via USB in FEL mode +``````````````````````````````````````````` +If the device is in FEL mode (see below), the SPI flash can also be written to +with the sunxi-fel utility, via an USB(-OTG) cable from any USB host machine:: + + $ sunxi-fel spiflash-write 0 u-boot-sunxi-with-spl.bin + +Booting via the USB(-OTG) FEL mode +---------------------------------- +If none of the boot locations checked by the BROM contains a medium or valid +signature, the BROM will enter the so-called FEL mode, in which it will +listen to commands from a host on the SoC's USB-OTG interface. Those commands +allow to read from and write to arbitrary memory locations, also to start +execution at any address, which allows to bootstrap a board solely via an +USB cable. Some boards feature a "FEL" or "U-Boot" button, which forces +FEL mode despite a valid boot location being present. The same can be achieved +via a `magic binary`_ on an SD card, which allows to enter FEL mode on any +board. + +To use FEL booting, let the board enter FEL mode, via any of the mentioned +methods (no boot media, FEL button, SD card with FEL binary), then connect +a USB cable to the board's USB OTG port. Some boards (Pine64, TV boxes) don't +have a separate OTG port. In this case mostly one of the USB-A ports is +connected to USB0, and can be used via a non-standard USB-A to USB-A cable. + +Typically there is no on-board indication of FEL mode, other than a new USB +device appearing on the connected host computer. The USB vendor/device ID +is 1f3a:efe8. Mostly this will identify as "sunxi SoC OTG connector in +FEL/flashing mode", but older distributions might still report "Onda +(unverified) V972 tablet in flashing mode". + +The `sunxi_fel`_ tool implements the proprietary BROM protocol, and allows to +bootstrap U-Boot by just providing our venerable u-boot-sunxi-with-spl.bin:: + + $ sudo apt-get install sunxi-tools + $ sunxi-fel uboot u-boot-sunxi-with-spl.bin + +Additional binaries like a kernel, an initial ramdisk or a boot script, can +also be uploaded via FEL, check the Wiki's `FEL page`_ for more details. + +.. _`Arm Trusted Firmware-A`: https://www.trustedfirmware.org/projects/tf-a/ +.. _`docs/plat/allwinner.rst`: https://trustedfirmware-a.readthedocs.io/en/latest/plat/allwinner.html +.. _`crust`: https://github.com/crust-firmware/crust +.. _`configs/`: https://github.com/crust-firmware/crust/tree/master/configs +.. _`crust README`: https://github.com/crust-firmware/crust/blob/master/README.md#building-the-firmware +.. _`linux-sunxi`: https://linux-sunxi.org +.. _`MTD utils`: http://www.linux-mtd.infradead.org/ +.. _`magic binary`: https://github.com/linux-sunxi/sunxi-tools/raw/master/bin/fel-sdboot.sunxi +.. _`sunxi_fel`: https://github.com/linux-sunxi/sunxi-tools +.. _`FEL page`: https://linux-sunxi.org/FEL/USBBoot diff --git a/doc/board/index.rst b/doc/board/index.rst index 13f4db8..0a02fec 100644 --- a/doc/board/index.rst +++ b/doc/board/index.rst @@ -9,6 +9,7 @@ Board-specific doc actions/index advantech/index AndesTech/index + allwinner/index amlogic/index apple/index atmel/index